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AlphaLISA AlphaScreen

Anti-maltose Binding Protein (MBP) Antibody-coated AlphaLISA Acceptor Beads

Section
Bead Selection and Bead Interference
Alpha Antibody Detection and Characterization
Alpha Bead Conjugation
Alpha Citations
Alpha EMSA Conversion
Alpha Immunogenicity
Alpha Instrument Options and Settings
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Alpha Protein-protein and Protein-nucleic Acid Interactions
Alpha Troubleshooting Tables
AlphaLISA 5 μL vs. 20 μL Sample Volume
AlphaLISA Epigenetic Toolbox Reagents
AlphaLISA Immunoassay Kits
AlphaLISA and AlphaScreen No-wash Assays
Bead Selection and Bead Interference
Buffer Selection for Alpha Assays
Create your own Alpha Assay
Data Analysis for AlphaLISA Immunoassays
Determining Kd With an Alpha Assay
Other Alpha Applications
Preparation of Analyte-depleted Serum for Alpha Assays
The Hook Effect
Working with Serum and Other Biological Matrices in Alpha Assays
Working with cell extracts and supernatants in Alpha assays
Sub Section
Anti-maltose Binding Protein (MBP) Antibody-coated AlphaLISA Acceptor Beads
2-Mercaptoethanol
Adenosine (ATP)
Anti-6X His antibody-coated AlphaLISA Acceptor Beads
Anti-FITC antibody-coated AlphaLISA Acceptor Beads
Anti-FLAG Antibody-coated Alpha Donor Beads
Anti-GFP Antibody-coated AlphaLISA Acceptor Beads
Anti-V5 Antibody-coated AlphaLISA Acceptor Beads
Anti-chicken IgY Antibody-coated AlphaLISA Acceptor Beads
Anti-maltose Binding Protein (MBP) Antibody-coated AlphaLISA Acceptor Beads
Anti-mouse IgG Antibody-coated Donor Beads
Anti-mouse IgM Antibody-coated AlphaLISA Acceptor Beads
Anti-rabbit IgG Antibody-coated Donor Beads
Anti-sheep IgG Antibody-coated AlphaLISA Acceptor Beads
CHAPS
Citrate
DMSO
DTT
Deoxycholate
EDTA
EGTA
Gelatin
Glutathione AlphaLISA Acceptor Beads
Glycerol
Glycine
IBMX
Imidazole
Magnesium and bead interference
Nickel Chelate AlphaLISA Acceptor Beads
Nitroprusside
Protein A-coated Donor Beads
Protein L-coated AlphaLISA Acceptor beads
Roche Complete Protease Inhibitor
S-adenosylmethionine (SAM)
SDS
Sodium Fluoride (NaF)
Strep-Tactin-coated Beads
Streptavidin-coated AlphaLISA Acceptor beads
TRIS pH 8.0
Triton X-100
Tween 20
Urea
Vanadate

Overview

The table below shows results from a compound interference study. We tested a panel of 24 compounds in a QC assay using our AlphaLISA™ toolbox bead products. The information below can be used for guidance as to what buffer components might interfere with AlphaLISA assays using Anti-MBP AlphaLISA beads, and at what concentrations interference might occur. These data are derived from single experiments and should serve more as a guide rather than a precise value, as it is unlikely you will be using the exact same assay design as used to generate the data below. Interference concentrations may vary depending on the assay components. It is possible your assay will tolerate higher or lower concentration than what is shown.

 

 

 

No effect 
10% 

50% loss 

Tested up to 

% of inhibition at max conc 

Glycerol 

1.3 

5.8 

30% 

86 

DMSO 

1.0 

2.9 

10% 

86 

Gelatin 

>1 

>1 

1% 

CHAPS 

0.07 

0.2 

3% 

79 

Deoxycholate 

0.009 

0.03 

3% 

100 

SDS 

0.006 

0.008 

3% 

100 

Triton X-100 

>3 

>3 

3% 

Tween 20 

>3 

>3 

3% 

TRIS (pH 8.0) 

7.6E-03 

1.3E-01 

0.5M 

71 

2-Mercaptoethanol 

2.1E-03 

3.5E-02 

0.1M 

70 

DTT 

3.5E-04 

5.2E-02 

0.1M 

65 

EDTA 

3.0E-02 

3.7E-02 

0.1M 

58 

EGTA 

1.2E-03 

>0.1 

0.1M 

18 

IBMX 

2.4E-04 

>0.0025 

0.0025M 

26 

Imidazole 

2.1E-03 

6.3E-03 

0.1M 

99 

Mg2+ (MgCl2

3.2E-02 

>0.1 

0.1M 

32 

Nitroprusside 

5.3E-03 

3.8E-02 

0.1M 

81 

Urea 

>0.1 

>0.1 

0.1M 

Vanadate 

1.6E-03 

9.0E-03 

0.1M 

98 

Citrate 

2.4E-03 

2.7E-03 

0.1M 

100 

Adenosine (ATP) 

>0.01 

>0.01 

0.01M 

Glycine 

>0.01 

>0.01 

0.01M 

NaF 

>0.01 

>0.01 

0.01M 

S-adenosylmethionine 

>0.001 

>0.001 

0.001M 

Complete Protease Inhibitor 

not determined 

not determined 

1X 

37 

 

Refer to the figure below for more detail as to what the values in the table above indicate. Please note that the figure is provided as a general example to explain how the values in our interference tables were determined. The table above indicates that an assay testing the effect of different chemicals using Anti-MBP AlphaLISA Acceptor beads (with Streptavidin Donor beads) showed little effect on the assay signal at final Triton X-100 concentrations up to 3%. Using 5.8% glycerol resulted in a 50% loss of signal.

mercapto-interference-fig2.jpg

Figure: Key for how the values in our interference tables are derived. The “no effect” concentration was obtained by extrapolating the MAX - 10% MAX counts. Refer to the table above for actual interference values for each toolbox bead product.

 

For research use only. Not for use in diagnostic procedures.

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